Bingmei Wang scite author profile

Mammalian tooth development relies heavily on the reciprocal and sequential interactions between cranial neural crest-derived mesenchymal cells and stomadial epithelium. During mouse tooth development, odontogenic potential, that is, the capability to direct an adjacent tissue to form a tooth, resides in dental epithelium initially, and shifts subsequently to dental mesenchyme. Recent studies have shown that mouse embryonic dental epithelium possessing odontogenic potential is able to induce the formation of a bioengineered tooth crown when confronted with postnatal mesenchymal stem cells of various sources. Despite many attempts, however, postnatal stem cells have not been used successfully as the epithelial component in the generation of a bioengineered tooth. We show here that epithelial sheets of cultured human keratinocytes, when recombined with mouse embryonic dental mesenchyme, are able to support tooth formation. Most significantly, human keratinocytes, recombined with mouse embryonic dental mesenchyme in the presence of exogenous FGF8, are induced to express the dental epithelial marker PITX2 and differentiate into enamel-secreting ameloblasts that develop a human-mouse chimeric whole tooth crown. We conclude that in the presence of appropriate odontogenic signals, human keratinocytes can be induced to become odontogenic competent; and that these are capable of participating in tooth crown morphogenesis and differentiating into ameloblasts. Our studies identify human keratinocytes as a potential cell source for in vitro generation of bioengineered teeth that may be used in replacement therapy.

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Expression patterns of WNT/β-CATENIN signaling molecules during human tooth development

Wang

Liu

et al. 2014

J Mol Hist

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The WNT/β-CATENIN signaling has been demonstrated to play critical roles in mouse tooth development, but little is known about the status of these molecules in human embryonic tooth. In this study, expression patterns of WNT/β-CATENIN signaling components, including WNT ligands (WNT3, WNT5A), receptors (FZD4, FZD6, LRP5), transducers (β-CATENIN), transcription factors (TCF4, LEF1) and antagonists (DKK1, SOSTDC1) were investigated in human tooth germ at the bud, cap and bell stages by in situ hybridization. All these genes exhibited similar but slightly distinct expression patterns in human tooth germ in comparison with mouse. Furthermore the mRNA expression of these genes in incisors and molars at the bell stage was also examined by real-time PCR. Our results reveal the status of active WNT/β-CATENIN signaling in the human tooth germ and suggest these components may also play an essential role in the regulation of human tooth development.

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The Mediating Effects of Learning Motivation on the Association between Perceived Stress and Positive-Deactivating Academic Emotions in Nursing Students Undergoing Skills Training

Wang

et al. 2019

J Korean Acad Nurs

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Inhibiting c-Jun N-terminal kinase (JNK)-mediated apoptotic signaling pathway in PC12 cells by a polysaccharide (CCP) from Coptis chinensis against Amyloid-β (Aβ)-induced neurotoxicity

Wang

Liu

et al. 2019

International Journal of Biological Macromolecules

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Efficient induction of functional ameloblasts from human keratinocyte stem cells

Lee

Zheng

et al. 2018

Stem Cell Res Ther

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BackgroundAlthough adult human tissue-derived epidermal stem cells are capable of differentiating into enamel-secreting ameloblasts and forming teeth with regenerated enamel when recombined with mouse dental mesenchyme that possesses odontogenic potential, the induction rate is relatively low. In addition, whether the regenerated enamel retains a running pattern of prism identical to and acquires mechanical properties comparable with human enamel indeed warrants further study.MethodsCultured human keratinocyte stem cells (hKSCs) were treated with fibroblast growth factor 8 (FGF8) and Sonic hedgehog (SHH) for 18 h or 36 h prior to being recombined with E13.5 mouse dental mesenchyme with implantation of FGF8 and SHH-soaked agarose beads into reconstructed chimeric tooth germs. Recombinant tooth germs were subjected to kidney capsule culture in nude mice. Harvested samples at various time points were processed for histological, immunohistochemical, TUNEL, and western blot analysis. Scanning electronic microscopy and a nanoindentation test were further employed to analyze the prism running pattern and mechanical properties of the regenerated enamel.ResultsTreatment of hKSCs with both FGF8 and SHH prior to tissue recombination greatly enhanced the rate of tooth-like structure formation to about 70%. FGF8 and SHH dramatically enhanced stemness of cultured hKSCs. Scanning electron microscopic analysis revealed the running pattern of intact prisms of regenerated enamel is similar to that of human enamel. The nanoindentation test indicated that, although much softer than human child and adult mouse enamel, mechanical properties of the regenerated enamel improved as the culture time was extended.ConclusionsApplication of FGF8 and SHH proteins in cultured hKSCs improves stemness but does not facilitate odontogenic fate of hKSCs, resulting in an enhanced efficiency of ameloblastic differentiation of hKSCs and tooth formation in human–mouse chimeric tooth germs.Electronic supplementary materialThe online version of this article (10.1186/s13287-018-0822-4) contains supplementary material, which is available to authorized users.

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Bingmei Wang

Induction of human keratinocytes into enamel-secreting ameloblasts

Expression patterns of WNT/β-CATENIN signaling molecules during human tooth development

The Mediating Effects of Learning Motivation on the Association between Perceived Stress and Positive-Deactivating Academic Emotions in Nursing Students Undergoing Skills Training

Inhibiting c-Jun N-terminal kinase (JNK)-mediated apoptotic signaling pathway in PC12 cells by a polysaccharide (CCP) from Coptis chinensis against Amyloid-β (Aβ)-induced neurotoxicity

Efficient induction of functional ameloblasts from human keratinocyte stem cells

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